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US2089523A - Lubricating apparatus - Google Patents

Lubricating apparatus Download PDF

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US2089523A
US2089523A US381139A US38113929A US2089523A US 2089523 A US2089523 A US 2089523A US 381139 A US381139 A US 381139A US 38113929 A US38113929 A US 38113929A US 2089523 A US2089523 A US 2089523A
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Prior art keywords
valve
lubricant
pressure
reservoir
bearings
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US381139A
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Benjamin F Wupper
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Stewart Warner Corp
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Stewart Warner Corp
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16NLUBRICATING
    • F16N7/00Arrangements for supplying oil or unspecified lubricant from a stationary reservoir or the equivalent in or on the machine or member to be lubricated
    • F16N7/38Arrangements for supplying oil or unspecified lubricant from a stationary reservoir or the equivalent in or on the machine or member to be lubricated with a separate pump; Central lubrication systems
    • F16N7/385Central lubrication systems

Definitions

  • My invention relates, generally, to lubricating apparatus and more particularly to centralized systems for lubricating a plurality of bearings on a single machine or group of machines.
  • my. invention I contemplate the provision of a lubricant reservoir in which the lubricant is continuously maintained under pressure and in which manually or automatically operable means are provided to open a valve to connect the reservoir with the bearings to be lubricated.
  • Various systems of this type have been proposed,
  • Another object is to provide a lubricating system of the above mentionedtype in which the lubricant reservoir is continuously maintained under pressure and in which an automatically operated valve permits flow of lubricant from the reservoir to the hearings to be lubricated at predetermined intervals depending upon any one of a number of functions of the machine in connection with which the system is used.
  • a further object of myinvention is to provide various improved means for automatically con- 40 trolling the period of lubrication.
  • a further object is to provide a system of the above mentioned type in which the lubricant reservoir is never open to the atmosphere, eliminat- .ing the possibility of dust and dirt entering the 45 lubricant reservoir.
  • Figure 2 is a central vertical section of the reservoir and control valve taken on the line 55 2-2 of Figure 3;
  • Figure 3 is'a horizontal section taken on the line 3-3 of Figure 1;
  • Figure 4 is a horizontal section taken on the line 4-4 of Figure 1; 4
  • Figure 5 is a vertical section taken on the line I 5 55 of Figure 1;
  • Figure 6 is a vertical section taken on the line 6-6 of Figure 1.
  • the lubricating system of my invention comprises, generally, a source of lubricant under pres- 10 sure', a plurality of bearings to'be lubricated, conduits connecting the bearings to the source, and a valve for adjustably controllingthe flow of lubricant from the source through the conduit to the bearings.
  • the degree which the valve may be opened and hence the rate offlow of lubricant from the source to the bearings is limited by a pressure and temperature responsive stop so that variations in the pressure and temperature of the source of lubricant will not aflect the rate at which the lubricant is supplied to the bearings.
  • various optional means which may be used to open the valve. It is intended that only one, or possibly two, of these optional means be incorporated in one systern. They are, however, illustrated and described-as all being usable in connection with asingie lubricant reservoir and conduit system.
  • the lubricant reservoir comprises an inverted receptacle l0, preferably made of glass, and which has a threaded neck [2 formed at its lower end.
  • the receptacle or reservoir in may thus be screwed into a body l4, a gasket l6 sealing the connection.
  • the body' [4 is secured to a cylinder casting I8 by cap screws 20, and the cylinder body may be secured to the dash 22 of an automotive vehicle or to any other suitable part of the machine to be lubricated. It may here be mentioned that while my invention is particularly adapted for use in the lubrication of automotive vehicles, it may also be used for the lubrication of any other kind of machinery and wherever reference is herein made to the parts of an automotive vehicle it should be understood that similar parts of other machines are included by inference.
  • the receptacle [0 has a bead 26 near its upper end, beneath which fits a supporting band 28 clamped around the receptacle by a bolt 30 and secured to the dish 22 by bolts 32.
  • Lubricant is supplied to the receptacle ID by being forced from a suitable lubricant compressor coupled to a pin fitt ng 34 ( Figure 5) which is screwed into the body l4. Lubricant passes from the pin fitting 34 through a duct 36 into the lower end of the receptacle. Assuming the receptacle to have been practically empty, lubricant will be supplied until it is approximately two-thirds to three-fourths full and the pressure within the receptacle will thus be three or four times atmospheric, assuming the air in the receptacle to have been .at atmospheric pressure upon starting the filling operation.
  • valve stem 38 which contains a valve such as customarily used on pneumatic tires and which is connected to a horizontal passageway 40.
  • the passageway 40 communicates with a tube 42 which is threaded into the body I4 and pro- J'ects upwardly to a point adjacent the top of the receptacle I0 and terminates in a hook portion 44 which prevents lubricant from passing out of the tube 42.
  • a wire mesh strainer 45 having a base flange 48 resting in a suitable recess. 50 formed in the end of the neck I2, surrounds an outlet tube 52 which is threaded .in thebody [4.
  • a float 54 having a sealing gasket 56 and a guide stem 50 projecting into the tube 52, is retained in position by the strainer ancl'is adapted to close the end or the outlet tube'52 when the level of the lubricant in the receptacle falls below a predetermined minimum and thereby prevent air bemg forced from the receptacle into the conduit system.
  • the outlet tube 52 communicates with a port 60, which opens into a tapered horizontal bore 52 formed in the body I4'and is normally closed by a tapered valve plug 64.
  • This plug has a diametric passageway 06, one end of which terminates in a circumferential slot 68 of. gradually increasing width and depth.
  • the other end of the passageway 66 is always in communication with a semi-circular duct I0 to which a discharge conduit I2 is connected.
  • the conduit I2 has any number of su.table branches 14 which lead to the bearings 16 to be lubricated, Suitable resistance units 18 are preferably connected adjacent the bearings so as to apportion the lubricant supply among the various bearings in accordance with their respective requirements.
  • valve plug 04 is firmly held in its complementary bore by a spring 80 which is compressed 15 thereof, may be used. It win thus be seen that" between a shoulder 82 formed on the valve plug, and a bushing 84 threaded in the end of the bore 02.
  • the stem 86 of the valve is also guided in the bushing 84 and has a stepped plate 88 secured at its end, the plate being held against rotation relative to the stem by a set screw 80.
  • container I00 located within the lower: end of the receptacle I0.
  • This container is arcuate in cross section so as to conform to the space between the neck I2 and the strainer 46, and is secured to the body .I4 by a short pipe nipple I02, the latter communicating with the sylphon through ducts I04, I06, I08.and H0.
  • the container I00 preferably has-a small quantity of 1141- uid of low boiling point therein.'
  • Such liquids as 1 ether, alcohol, chloroform, etc., or mixtures an increase in pressure therein, which increase will, of course, be communicated to the sylphon 94 and result in forcing the stop finger.
  • the degree of opening of the valve may be controlled so that the rate of flow of lubricant therethrough will be constant, irrespective of the variations of pressure within the reservoir and of the temperature of the system.
  • the plate 88 and the finger 92 thus form parts of a differential. stop means which limits the extent of opening of the valve inaccordance with the pressure and temperature of the lubricant in the receptacle I0.
  • the casting I8 has a cylinder I I2 formed therein, a closed by ahead 4.
  • a cylindrical sleeve I26 is securedto the left-- hand end of the stem 8 and forms an enclosure for a spring I28 which is held between an inwardly bent flange at the left-hand end 01' the sleeve I26 and a head formed at the end of a rod I30.
  • the rod I30 has a yoke I32 which is pivotally joined to a longitudinally slotted link I34.
  • plunger I54 is normally held to the right by a spiral coil spring I62. which is compressed between the side face of a coil I64 and a flange I56 formed at the right-hand end of the plunger I54.
  • the plunger is guided by a pin I formed integrally with a plug "0, the pin projecting within the bore I50.
  • the casting is, of
  • the electromagnet I64 may be connected in the ignition circuit I16 so that whenever the ignition switch I18 is closed, the electromagnet will be energized or may be connected to the battery through a second circuit I80which is adapted to be closed by a manually operable switch I82.
  • a conduit I84 having a valve I90, is connected to the intake manifold of the automotive vehicle upon which the system is installed.
  • a similar conduit I92 having a control valve I94 therein, is connected to an aspirator in the water circulating system of the engine.
  • a pipe 204 is connected to the left-hand end of the cylinder H2 and terminates in a header 206.
  • a conduit 208 having a spring pressed check valve 2) and a manually operable valve 2I2, is connected to one of the engine cylinders.
  • a similar conduit 2I4 connects the header 206 with the engine oiling system, a valve 2I6 being provided to shut off this conduit.
  • a similar conduit 2I8, having a valve 220 is connected to the pressure side of the water circulating pump.
  • Another pipe 222 having a valve 224, connects the header with the engine operated air pressure pump.
  • Another conduit 226, having a valve 228, is adapted to connect the header with the atmosphere.
  • the end of the stem '8 has an eccentric cam 40 230 pivotally secured thereto, the pivotal connection ofiering sufilcient friction so that manual force will be required to swing the cam on its pivot, a handle 232 being provided for manually operating the cam.
  • valve mechanism will be located at a point on the vehicle where it will not be directly or greatly afiected by changes in temperature due to the operation of the vehicle,but
  • a flexible walled, hollow disc 294 which is free to rise or descend in the reservoir.
  • This disc operates on the principle of a Cartesian diver so that when the pressure rises above 'a predetermined minimum it will sink to the bottom of the receptacle and when the pressure in the reservoir drops below a predetermined minimum it will rise to the surface'of the oil and thus serve as a visual indication that the pressure should be raised by supplying additional air under pressure by means of an air pump or source of compressed air connected to the stem 88.
  • the reservoir I0 will be filled with lubricant in the manner previously described and if, after suiflcient lubricant has been forced into the reservoir, the indicating disc 284 is still floating on the surface of the lubricant, additional air may be supplied through the stem 28.
  • the pressure ini- 4 tially be considerably higher than the minimum required so that as the lubricant is forced from the reservoir the pressure will not drop below the It will be understood. that the reservoir and minimum which is necessary effectively to force the lubricant to the bearings.
  • valve I may be opened and all of the other valves, with the exception of the valve 228, closed.
  • the suction in the intake manifold will be communicated to the right-hand end of the cylinder H2 and move the piston I I6 to the right, thereby drawing the rod I30 to the right by force transmitted through the spring I28 and tending to rotate the plate 88 clockwise ( Figure 1) against the tension of the spring I62, until such rotation is limited by the stop finger 92 which is automatically positioned, as previously described, to compensate for variations in pressure and temperature of the lubricant in the reservoir I 0. e
  • valve I90 By closing the valve I90 and opening the valve I94 the aspirator in the water circulating system will cause sufficient suction to open the valve 64 in the same manner as previously described.
  • the valve 64 may also be opened by pressure. Assuming the valves I90, I94, I98, 2I6, 220, 224
  • valves 202 and 2I2 I open, the gas in the engine cylinders upon the compression stroke will be forced past the check valve 2I0 and through the pipe 204 to the lefthand end of the cylinder II2, thus forcing the piston II6 to the right and opening the valve in .-the same manner.
  • the lubricant pressure in the engine oiling system, the hydraulic pressure in the wa- 'ter circulating system and the air pressure in the engine operated air pressure pump may be respectively used to supply fluid pressure to the left-hand end of the cylinder H2 and openthe valve 64.
  • valve 2I0 does not fit its seat tightly so that after the engine stops the pressure in the left-hand end of the cylinder II2 will gradually drop due tothe leakage past the check valve. 4
  • the handle 232 is swung clockwise ( Figure 1), thus opening the valve through the mechanism previously described. It will be understood that the handle 232 will be frictionally held in any desired adjusted position and that it will be necessary manually to swing the hande 232 counterclockwise in order to permit the complete closure of the valve 64.
  • the valve may also be automatically operated whenever the ignition switch "8 is closed.
  • a lubricating system of the class described the combination of a closed reservoir, valved means to admit lubricant under pressure to said reservoir, valved means to admit air under pressure to said reservoir, a plurality of 30 bearingsto be lubricated, a conduit connecting said hearings to saidreservoir, a valve controlling the flow of lubricant from said reservoir to said conduit, means to open said valve and means controlled by the pressure Within said reservoir to limit the degree of opening of said valve.
  • ' 45 means to open said valve and temperature and pressure controlled means to limit the degree of opening of said valve.
  • a closed reservoir 50 means to admit lubricant under pressure to said reservoir, means to admit air under pressure to said reservoir, a plurality of hearings to be lubricated, a conduit connecting said hearings to said reservoir, a valve controlling the flow of 55 lubricant from said reservoir to said conduit,
  • a lubricant container checkvalved means tosupply lubricant and air under pressure thereto, a. plurality of bearings forming part of the machine to be lubricated, a conduit system connecting said hearings to said container, adjustable valve means for controlling the rate of flow of lubricant from said container to said conduit system in accordance with the pressure and temperature of the lubricant in said container, and means for opening and closing 70 said valve.
  • a lubricant container means to supply lubricant thereto, a plurality of hearings to be lubricated, a conduit 75 system connecting said hearings to said container, a valve for adjustably controlling the flow of lubricant from said container to said conduit system, suction operated means for opening said valve, and means conjointly responsive to the pressure and temperature of the lubricant in said 5 container to limit the extent of opening of said valve.
  • a lubricant l container means to supply lubricant thereto, a 10 plurality of bearings to be lubricated, a. conduit system connecting said hearings to said container, a valve for adjustably controlling the flow of lubricant from said container to said conduit system, pressure operated means for opening said valve, and means conjointly responsive to the pressure and temperature of the lubricant in said container to limit the extent of opening of said valve.
  • a lubricant container for maintaining a. supply of lubricant under pressure, a plurality of bearings to be lubricated, a conduit system connecting said hearings to said containerQa valve for adjustably controlling the flow of lubricant from said container to said conduit system, magnetically 0perated'means for opening said valve, adjustable stop means to limit the extent of opening of said valve by said magnetically operated means, said adjustable stop means being adjusted in accordance with the pressure in said lubricant contamer.
  • a source of lubricant under pressure a plurality of bearings requiring lubrication, conduits connecting said bearings with said source, a valve intermediate said source and said conduits for 40 controlling the flow of lubricant from said source to said bearings, electro-magnetic means energized upon closing the ignition circuit of said engine operable to open said valve, and adjustable stop means controlled by the temperature of the lubricant at said source to limit the extent of opening of said valve.
  • a. 0 source of lubricant under pressure a plurality of bearings requiring'lubrication, conduits connecting said bearings with said source, a valve intermediate said source and said conduits for controlling the flow of lubricant from said source to said bearings, suction operated means connected to theintake manifold of said engine to open said valve, and adjustable stop means conjointly controlled by the pressure and temperature of the lubricant at said source for limiting the exadjustable stop means controlled by the temperature of the lubricant at said source for limiting the extent of opening of said valve.
  • valve means for adjustabiy controlling the flow of lubricant from said source to said bearings, and stop means controlled by the temperature of lubricant at said source for limiting the extent to which said valve means may be opened.
  • a centralized lubricating system the combination or a source of lubricant under pressure, a plurality of hearings to be lubricated, conduits connecting said source with said bearings, means for adjustably controlling the flow of lubricant from said source .to said bearings, and stop means controlled by the pressure of the lubricant at said source for limiting the extent to whichsaid flow controlling means may be adjusted for maximum flow of lubricant.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Lubrication Of Internal Combustion Engines (AREA)

Description

Aug.1o,1937. I BFWU PER 2,089,523
- LUBBICATING APPARATUS Filed July 26, 1929 4 Sheets-Sheet l #76 tam Elf/yam)? WWI 7 A 10, 1937. ER 2,089,523
' LUBRICATING APPARATUS Filed J1 1 ly 26, 19 29 4 Sheets-"Sheet :5
Q WM w Aug. 10, 1937. B ugp 'R 2,089,523
LUBRICATING APPARATUS Filed July 26, 1929 4 Sheets-Sheet 4 I I I 4 Patentec l Aug. 10, 1937 v PATENTFOFFICE LUBRICA-TIN G APPARATUS Benjamin F. Wupper, Chicago, Ill., assignonby mesne-assignments, to Stewart-Warner Corporation, Chicago, 111., a corporation of Vir- -ginia Application July-26, 1929, Serial No. 381.139
13 Claims. (Cl. 184-7) My invention relates, generally, to lubricating apparatus and more particularly to centralized systems for lubricating a plurality of bearings on a single machine or group of machines. In carrying out my. invention I contemplate the provision of a lubricant reservoir in which the lubricant is continuously maintained under pressure and in which manually or automatically operable means are provided to open a valve to connect the reservoir with the bearings to be lubricated. Various systems of this type have been proposed,
' but have been found to be impractical because of the variation in the quantity of lubricant forced to thebearings due to variations in. tem- .15 perature and hence viscosity of the lubricant,
and due to variations-in pressure in the reservoir. I have provided means for automatically compensating forsuch changes. in the pressure upon the lubricant within the reservoir and also for changes in temperature, and have made other improvements which simplify the system and make its operation more reliable.
It is among the objects of my invention to provide a lubricating, system in which the lubricant is forced continuously ,to the bearings requiring lubrication and wherein .the quantity forced to the bearings is substantially uniform irrespective of the temperature.
Another object is to provide a lubricating system of the above mentionedtype in which the lubricant reservoir is continuously maintained under pressure and in which an automatically operated valve permits flow of lubricant from the reservoir to the hearings to be lubricated at predetermined intervals depending upon any one of a number of functions of the machine in connection with which the system is used.
A further object of myinvention is to provide various improved means for automatically con- 40 trolling the period of lubrication.
A further objectis to provide a system of the above mentioned type in which the lubricant reservoir is never open to the atmosphere, eliminat- .ing the possibility of dust and dirt entering the 45 lubricant reservoir.
Other objects will appear from the following description, reference being had to the accom-' panying drawings in which- Figure 1 is .a side elevation of the reservoir and 50 a vertical sectional view of the valve controlling means and diagrammatically illustrates various methods of controlling the operation of the valve;
Figure 2 is a central vertical section of the reservoir and control valve taken on the line 55 2-2 of Figure 3;
Figure 3 is'a horizontal section taken on the line 3-3 of Figure 1;
Figure 4 is a horizontal section taken on the line 4-4 of Figure 1; 4
' Figure 5 is a vertical section taken on the line I 5 55 of Figure 1;
Figure 6 is a vertical section taken on the line 6-6 of Figure 1.
The lubricating system of my invention comprises, generally, a source of lubricant under pres- 10 sure', a plurality of bearings to'be lubricated, conduits connecting the bearings to the source, and a valve for adjustably controllingthe flow of lubricant from the source through the conduit to the bearings. The degree which the valve may be opened and hence the rate offlow of lubricant from the source to the bearings is limited by a pressure and temperature responsive stop so that variations in the pressure and temperature of the source of lubricant will not aflect the rate at which the lubricant is supplied to the bearings. I have also provided various optional means which may be used to open the valve. It is intended that only one, or possibly two, of these optional means be incorporated in one systern. They are, however, illustrated and described-as all being usable in connection with asingie lubricant reservoir and conduit system.
As best shown in Figures 1 and 2, the lubricant reservoir comprises an inverted receptacle l0, preferably made of glass, and which has a threaded neck [2 formed at its lower end. The receptacle or reservoir in may thus be screwed into a body l4, a gasket l6 sealing the connection.
The body' [4 is secured to a cylinder casting I8 by cap screws 20, and the cylinder body may be secured to the dash 22 of an automotive vehicle or to any other suitable part of the machine to be lubricated. It may here be mentioned that while my invention is particularly adapted for use in the lubrication of automotive vehicles, it may also be used for the lubrication of any other kind of machinery and wherever reference is herein made to the parts of an automotive vehicle it should be understood that similar parts of other machines are included by inference.
The receptacle [0 has a bead 26 near its upper end, beneath which fits a supporting band 28 clamped around the receptacle by a bolt 30 and secured to the dish 22 by bolts 32.
Lubricant is supplied to the receptacle ID by being forced from a suitable lubricant compressor coupled to a pin fitt ng 34 (Figure 5) which is screwed into the body l4. Lubricant passes from the pin fitting 34 through a duct 36 into the lower end of the receptacle. Assuming the receptacle to have been practically empty, lubricant will be supplied until it is approximately two-thirds to three-fourths full and the pressure within the receptacle will thus be three or four times atmospheric, assuming the air in the receptacle to have been .at atmospheric pressure upon starting the filling operation. If it is desired to increase the pressure at which the lubricant is to be supplied, additional air under pressure may be supplied through the valve stem 38 which contains a valve such as customarily used on pneumatic tires and which is connected to a horizontal passageway 40. The passageway 40 communicates with a tube 42 which is threaded into the body I4 and pro- J'ects upwardly to a point adjacent the top of the receptacle I0 and terminates in a hook portion 44 which prevents lubricant from passing out of the tube 42.
A wire mesh strainer 45, having a base flange 48 resting in a suitable recess. 50 formed in the end of the neck I2, surrounds an outlet tube 52 which is threaded .in thebody [4. A float 54, having a sealing gasket 56 and a guide stem 50 projecting into the tube 52,, is retained in position by the strainer ancl'is adapted to close the end or the outlet tube'52 when the level of the lubricant in the receptacle falls below a predetermined minimum and thereby prevent air bemg forced from the receptacle into the conduit system.
The outlet tube 52 communicates with a port 60, which opens into a tapered horizontal bore 52 formed in the body I4'and is normally closed by a tapered valve plug 64. This plug has a diametric passageway 06, one end of which terminates in a circumferential slot 68 of. gradually increasing width and depth. The other end of the passageway 66 is always in communication with a semi-circular duct I0 to which a discharge conduit I2 is connected. The conduit I2 has any number of su.table branches 14 which lead to the bearings 16 to be lubricated, Suitable resistance units 18 are preferably connected adjacent the bearings so as to apportion the lubricant supply among the various bearings in accordance with their respective requirements.
The valve plug 04 is firmly held in its complementary bore by a spring 80 which is compressed 15 thereof, may be used. It win thus be seen that" between a shoulder 82 formed on the valve plug, and a bushing 84 threaded in the end of the bore 02. The stem 86 of the valve is also guided in the bushing 84 and has a stepped plate 88 secured at its end, the plate being held against rotation relative to the stem by a set screw 80.
Clockwise rotation (Figure. 1) of the stem 85 is limited by a'stop finger92 which is rigidly secured to one end of an annular. metallic bellows or sylphon' 94 and is guided in a ring 05 threaded in the body I4. The sylphon 94 is normally held compressed by a spring 98 but is adapted to be expanded upon increases in pressure or temperature. The expansion 0! the sylphon is effected by an imperforate flexible wall,
container I00 located within the lower: end of the receptacle I0. This container is arcuate in cross section so as to conform to the space between the neck I2 and the strainer 46, and is secured to the body .I4 by a short pipe nipple I02, the latter communicating with the sylphon through ducts I04, I06, I08.and H0. The container I00 preferably has-a small quantity of 1141- uid of low boiling point therein.' Such liquids as 1 ether, alcohol, chloroform, etc., or mixtures an increase in pressure therein, which increase will, of course, be communicated to the sylphon 94 and result in forcing the stop finger. 92 toward the plate 86 and limiting the degree of opening 98 of the resiliency required; by Spacing the steps on the plate 88 proper distances, and by conforming the slot 68 to the desired shape, the degree of opening of the valve may be controlled so that the rate of flow of lubricant therethrough will be constant, irrespective of the variations of pressure within the reservoir and of the temperature of the system. The plate 88 and the finger 92 thus form parts of a differential. stop means which limits the extent of opening of the valve inaccordance with the pressure and temperature of the lubricant in the receptacle I0.
As previously intimated, I have provided optionally usable means for operating the valve .64.
The casting I8 has a cylinder I I2 formed therein, a closed by ahead 4.
A piston IIS formed of two oppositely faced cup leathers and suitable I reinforcing plates, is secured to'a stem I I8 and is resiliently held in its left-most position, as shown in Figure 1, by a spring I20, one end of which abuts against the piston and the other endv of which is seated against a packing gland I22 which continuously holds a packing I24 within the head I I4 compressed about the stem I I8.
A cylindrical sleeve I26 is securedto the left-- hand end of the stem 8 and forms an enclosure for a spring I28 which is held between an inwardly bent flange at the left-hand end 01' the sleeve I26 and a head formed at the end of a rod I30. The rod I30 has a yoke I32 which is pivotally joined to a longitudinally slotted link I34. A pin I36, rigidly secured at the end=of an arm I38 'formed integrally with the plate 88, projects into normally held in its left-most position relative to a non-magnetic sleeve I52 anda magnetic solenoid plunger I54 by a spring I56, the rod I50 having a head I58 which limits its leftward movement by engagement with a shoulder at the end of a bore I50 formed in the plunger I54. The
plunger I54 is normally held to the right by a spiral coil spring I62. which is compressed between the side face of a coil I64 and a flange I56 formed at the right-hand end of the plunger I54. The plunger is guided by a pin I formed integrally with a plug "0, the pin projecting within the bore I50.
One end of the winding of the coil I54 is connected to the supporting casting, while the other end is connected to a binding post I12 which is insulated from the casting. The casting, is, of
course; grounded through the conduit system, but an additional grounding wire I14 may be secured to the casting. The electromagnet I64 may be connected in the ignition circuit I16 so that whenever the ignition switch I18 is closed, the electromagnet will be energized or may be connected to the battery through a second circuit I80which is adapted to be closed by a manually operable switch I82.
'I'he-right-hand end of the cylinder H2 is connected by a pipe I84 with a header I86. A conduit I88, having a valve I90, is connected to the intake manifold of the automotive vehicle upon which the system is installed. A similar conduit I92, having a control valve I94 therein, is connected to an aspirator in the water circulating system of the engine. A conduit I96, having a valve I98, is connected to an aspirator in the exhaust pipe of the engine. A conduit 200, having a valve 202, has its end open to the atmosphere.
A pipe 204 is connected to the left-hand end of the cylinder H2 and terminates in a header 206. A conduit 208, having a spring pressed check valve 2) and a manually operable valve 2I2, is connected to one of the engine cylinders. A similar conduit 2I4 connects the header 206 with the engine oiling system, a valve 2I6 being provided to shut off this conduit. A similar conduit 2I8, having a valve 220, is connected to the pressure side of the water circulating pump. Another pipe 222, having a valve 224, connects the header with the engine operated air pressure pump. Another conduit 226, having a valve 228, is adapted to connect the header with the atmosphere.
The end of the stem '8 has an eccentric cam 40 230 pivotally secured thereto, the pivotal connection ofiering sufilcient friction so that manual force will be required to swing the cam on its pivot, a handle 232 being provided for manually operating the cam.
previously described valve mechanism will be located at a point on the vehicle where it will not be directly or greatly afiected by changes in temperature due to the operation of the vehicle,but
will be affected only by general changes in atmospheric temperature.
Whether or not the pressure within the receptacle is suflicieritly high may be suitably indicated by a flexible walled, hollow disc 294 which is free to rise or descend in the reservoir. This disc'operates on the principle of a Cartesian diver so that when the pressure rises above 'a predetermined minimum it will sink to the bottom of the receptacle and when the pressure in the reservoir drops below a predetermined minimum it will rise to the surface'of the oil and thus serve as a visual indication that the pressure should be raised by supplying additional air under pressure by means of an air pump or source of compressed air connected to the stem 88.,
In operation the reservoir I0 will be filled with lubricant in the manner previously described and if, after suiflcient lubricant has been forced into the reservoir, the indicating disc 284 is still floating on the surface of the lubricant, additional air may be supplied through the stem 28.
It is preferable, of course, that the pressure ini- 4 tially be considerably higher than the minimum required so that as the lubricant is forced from the reservoir the pressure will not drop below the It will be understood. that the reservoir and minimum which is necessary effectively to force the lubricant to the bearings.
Assuming that it is desired to have the chassis lubricated continuously while the engine is running, the valve I may be opened and all of the other valves, with the exception of the valve 228, closed. Thus, when the engine is started, the suction in the intake manifold will be communicated to the right-hand end of the cylinder H2 and move the piston I I6 to the right, thereby drawing the rod I30 to the right by force transmitted through the spring I28 and tending to rotate the plate 88 clockwise (Figure 1) against the tension of the spring I62, until such rotation is limited by the stop finger 92 which is automatically positioned, as previously described, to compensate for variations in pressure and temperature of the lubricant in the reservoir I 0. e
As soon as the engine stops, the spring I62 will force the plunger I54 to the right and thereby rotate the valve 64 counterclockwise" and cut off the flow of lubricant to the bearings.-
Similarly, by closing the valve I90 and opening the valve I94 the aspirator in the water circulating system will cause sufficient suction to open the valve 64 in the same manner as previously described.
By closing the valve I94 and opening the valve I98, the passage of gases by an aspirator in the exhaust pipe will create the suction for opening the valve 68. r
The valve 64 may also be opened by pressure. Assuming the valves I90, I94, I98, 2I6, 220, 224
and 228 to be closed and the valves 202 and 2I2 I open, the gas in the engine cylinders upon the compression stroke will be forced past the check valve 2I0 and through the pipe 204 to the lefthand end of the cylinder II2, thus forcing the piston II6 to the right and opening the valve in .-the same manner. Likewise, by closing the valve 2I2 and successively opening the valves 2I6, 220 and 224, the lubricant pressure in the engine oiling system, the hydraulic pressure in the wa- 'ter circulating system and the air pressure in the engine operated air pressure pump may be respectively used to supply fluid pressure to the left-hand end of the cylinder H2 and openthe valve 64. In each instance the valve will, of course, be closed by the spring I62 whenever the pressure again drops to atmospheric. It may be stated here that the check valve 2I0 does not fit its seat tightly so that after the engine stops the pressure in the left-hand end of the cylinder II2 will gradually drop due tothe leakage past the check valve. 4
If it is desired manually to control the open ing of the valve 64, the handle 232 is swung clockwise (Figure 1), thus opening the valve through the mechanism previously described. It will be understood that the handle 232 will be frictionally held in any desired adjusted position and that it will be necessary manually to swing the hande 232 counterclockwise in order to permit the complete closure of the valve 64.
The valve may also be automatically operated whenever the ignition switch "8 is closed. The
other means may be used complete the clrv cuit through the electromagnet I64, dependent upon the period during which it is desired to have the valve 64 open.
5 It will, of course, be understood that only one ofthe means for controlling the opening of the va ve, 66 is necessary in a single system and that I have shown numerous means for controlling the valve 54 in the system herein disclosed l merely to illustrate optionally usable .control means. In some instances it may, however, be
desired to use more than one control means,
such, for example, as using the manual control in connection with any one of the other con- 15 trols.
While, the mechanism herein shown and described is admirably adapted to fill the objects primarily stated, it is to understood that it is not intended to confine the invention to the forms of 29 embodiment herein disclosed, for theinvention is susceptible of embodiment in various iorms all coming within the scope of the claims which follow.
I claim:
25 i. In, a lubricating system of the class described, the combination of a closed reservoir, valved means to admit lubricant under pressure to said reservoir, valved means to admit air under pressure to said reservoir, a plurality of 30 bearingsto be lubricated, a conduit connecting said hearings to saidreservoir, a valve controlling the flow of lubricant from said reservoir to said conduit, means to open said valve and means controlled by the pressure Within said reservoir to limit the degree of opening of said valve.
2. m a lubricating system of the class de-.
' 45 means to open said valve and temperature and pressure controlled means to limit the degree of opening of said valve.
3. In a lubricating system of the class described, the combination of a closed reservoir, 50 means to admit lubricant under pressure to said reservoir, means to admit air under pressure to said reservoir, a plurality of hearings to be lubricated, a conduit connecting said hearings to said reservoir, a valve controlling the flow of 55 lubricant from said reservoir to said conduit,
means to 'open said valve and temperature controlled means to limit the degree of opening of said valve. l
4. In a centralized machine lubricating system.
0 the combination of a lubricant container, checkvalved means tosupply lubricant and air under pressure thereto, a. plurality of bearings forming part of the machine to be lubricated, a conduit system connecting said hearings to said container, adjustable valve means for controlling the rate of flow of lubricant from said container to said conduit system in accordance with the pressure and temperature of the lubricant in said container, and means for opening and closing 70 said valve.
I 5. In a centralized lubricating system of the class described, the combination of a lubricant container, means to supply lubricant thereto, a plurality of hearings to be lubricated, a conduit 75 system connecting said hearings to said container, a valve for adjustably controlling the flow of lubricant from said container to said conduit system, suction operated means for opening said valve, and means conjointly responsive to the pressure and temperature of the lubricant in said 5 container to limit the extent of opening of said valve.
6. In a centralized lubricating system of the class described, the combination of a lubricant l container, means to supply lubricant thereto, a 10 plurality of bearings to be lubricated, a. conduit system connecting said hearings to said container, a valve for adjustably controlling the flow of lubricant from said container to said conduit system, pressure operated means for opening said valve, and means conjointly responsive to the pressure and temperature of the lubricant in said container to limit the extent of opening of said valve.
'I. In a centralized lubricating system of the class described, the combination'of a lubricant container for maintaining a. supply of lubricant under pressure, a plurality of bearings to be lubricated, a conduit system connecting said hearings to said containerQa valve for adjustably controlling the flow of lubricant from said container to said conduit system, magnetically 0perated'means for opening said valve, adjustable stop means to limit the extent of opening of said valve by said magnetically operated means, said adjustable stop means being adjusted in accordance with the pressure in said lubricant contamer.
8. In a centralized lubricating system for the chassis of an automotive vehicle having an inii ternal combustion engine, the combination of a source of lubricant under pressure, a plurality of bearings requiring lubrication, conduits connecting said bearings with said source, a valve intermediate said source and said conduits for 40 controlling the flow of lubricant from said source to said bearings, electro-magnetic means energized upon closing the ignition circuit of said engine operable to open said valve, and adjustable stop means controlled by the temperature of the lubricant at said source to limit the extent of opening of said valve.
9. In a centralized lubricating systemior the chassis or an automotive vehicle having an internal combustion engine, the combination of a. 0 source of lubricant under pressure, a plurality of bearings requiring'lubrication, conduits connecting said bearings with said source, a valve intermediate said source and said conduits for controlling the flow of lubricant from said source to said bearings, suction operated means connected to theintake manifold of said engine to open said valve, and adjustable stop means conjointly controlled by the pressure and temperature of the lubricant at said source for limiting the exadjustable stop means controlled by the temperature of the lubricant at said source for limiting the extent of opening of said valve.
11. In a centralized lubricating system, the
' combination of a source of lubricant under pres-- sure, a plurality of bearings to be lubricated, a conduit connecting said source with said bearings, a valve ior controlling the flow of lubricant from said source to said conduit system, said valve having a passageway increasing in size with the degree of operation or the valve, means for automatically opening said valve, adiustable 10 stop means controlled by the temperature of the 15 combination of a source of lubricant under pressure, a plurality of bearings to be lubricated,
conduits connecting said source with said bearings, valve means for adjustabiy controlling the flow of lubricant from said source to said bearings, and stop means controlled by the temperature of lubricant at said source for limiting the extent to which said valve means may be opened.
13. In a centralized lubricating system, the combination or a source of lubricant under pressure, a plurality of hearings to be lubricated, conduits connecting said source with said bearings, means for adjustably controlling the flow of lubricant from said source .to said bearings, and stop means controlled by the pressure of the lubricant at said source for limiting the extent to whichsaid flow controlling means may be adjusted for maximum flow of lubricant.
BENJAMIN F. WUPPER.
US381139A 1929-07-26 1929-07-26 Lubricating apparatus Expired - Lifetime US2089523A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2435832A (en) * 1942-07-27 1948-02-10 Bowser Inc Lubricant filtering and dispensing tank
US4769978A (en) * 1984-09-07 1988-09-13 Deere & Company Lubrication distribution system for cotton harvester row units
US4840018A (en) * 1988-03-28 1989-06-20 Deere & Company Lubrication distribution system for a cotton harvester
US5018343A (en) * 1984-05-05 1991-05-28 Lubricating Specialties Company Cotton picker spindle lubrication apparatus, method and lubrication cartridge therefore

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2435832A (en) * 1942-07-27 1948-02-10 Bowser Inc Lubricant filtering and dispensing tank
US5018343A (en) * 1984-05-05 1991-05-28 Lubricating Specialties Company Cotton picker spindle lubrication apparatus, method and lubrication cartridge therefore
US4769978A (en) * 1984-09-07 1988-09-13 Deere & Company Lubrication distribution system for cotton harvester row units
US4840018A (en) * 1988-03-28 1989-06-20 Deere & Company Lubrication distribution system for a cotton harvester

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